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Correspondence . t Honeywell Honeywell Inc. .e1/6/ 15495 SW Sequoia Pkwy Ste 100 Portland OR 97224 6 > o J w 503 968 -3300 April 18, 1995 City of Tigard 995 13125 SW Hall Blvd. 1,„. Tigard Oregon 97223 ` ` " ,IEN Attention: Dave Scott Subject: Pactrust Building 241 Plan Review Dear Mr. Scott, Enclosed you will find revised drawings, riser diagram and plans review by Melott and Associates. Please note Melott and Associates opposition to the request for building manual pull stations. Corridor smoke detectors will initiate the audible /visual devices for the building The building sprinkler system will initiate all building audible /visual devices Elevator lobby smoke doors will close on all floors on elevator lobby smoke condition Elevator lobby detectors and elevator machine room detector will interface with the elevator controls for cab recall Floor smoke detectors will close fire /smoke dampers for that floor & shut down building HVAC Fire alarm control panel will be located in 2nd floor electrical room Fire alarm annunciator will be located in first floor lobby Fire alarm control panel will provide an output to security panel to release access control doors Strobe lights will be located in all rest rooms and building conference rooms Strobe /horn indicators will be located in tenant spaces as they are built out All alarm and trouble conditions will signal Honeywell's central monitoring station Please let me know if you have any questions. My direct phone number is (503)968- 3366 Sincerely, HONEYWELL HOME and BUILDING CONTROL Bob Pritchard Building Security Market Manager Punted with So% Ink on Lv en rr Rent led Paper, Are Pnso-Consumer - F `f / DELTANET FS90 SYSTEM CONFIGURATOR cn u) `' ' � FUNCTION BOARDS Wa' ::a C ,n, ;, DEVICE w Z ``' IN " ` ; CA AA AB BF BG DB VA <a. i J: i.•) wM 4 + - .:t4.. vi>Z I ,y" :r`` vi. }1; +`.. :'fir. ") A /� •. �`)FY w \w ,. . ... ____ ` °ji: °K) <•?^,:<.S �! n ` ; :�A��:%:R :•`:°.°::::.b;.,.: .:. �'i3:2�`'.:2. SMOK .: . a`.. i�.C� �c:.>�.w:..... ::S:: ;iy. ar. 1 :;; •::.k• . :: .� \` E: B S /4 v a bV \ ` O +, S!:}i Y. "Yw:.:Q )}: J:� :: A . /` i G. M \` .. *. ,... . ti„ t ,!.*..:: , :: ' %fit +:ri:3 i .::' vim.' EATS •`: : ° < :^ ''"€:• ;: %, <...'d. av ;:J: :' Z 'a ��' v ,>i:::::r�r;;):. \':v::.:SF:no .'a' :$S ?S.i.� , a:_: :: B /4 <; «:;).,•::;'; M. ;.;. >; .. PULLS �- w e. : }.: =: ?,rg ; .: ba'.SLa`. v . Yi al., ''�➢ : i.s Ri . ' { '. a . + i'•,w4. :W.:.: +.: • 'ati.;.: A. B ■ /4 '.1\+wwvh. :.}:.ari ,.(:�•': 'b'.3b?i^r.<e?• 5+r .'�` < liq Y• ::.4....A7::.". k I;: > ?i): \�'. ai 1:v.4'' /� )`*,. 5 fir+ . ..X , v .50.: A WATERFLOW - ' - -.; : , �..� - 57Z a B / a C A b ` r A ■ e : : . tik7i: P';`,.t:R51:1:"I!.., :Sail r SUPERVISORY � � '>p :: y • ' : ' �a - Wiaz`., : ' , k py Q :4 .. : ! �. %> : � F ` 7 :1.�4YO + ) )} . ry. �('4: `�� B / /4 k: , -.�: ` fr 5' )_ {:.pia ` . ,w`C ?4;h:Y •,. . 4 a.. .m. NON FIRE<< _ a:: ? >�ri', <: .. /4 >; , . Mil :::� �::):<.� >):..n::. >:.;:.. �...:<:::.: INPUTS ' °. -X .{ � 4 ,. : r� ;;� ' • a>''` �ark: ' �: '� •viw..ZV•:..;. •:::N >5:;:; ;,`s:`r:: INDICATOR } z _< �}:�; ::z:s: s.>.x: B / /2 \ \ fIY . ` )d � o" N ' - . M y ,. '4 \ • ' �" ' ' "` `aw .a.:r\b� .'x> ., REMOTE ANN. a /8 , a zi . w ) . +)<;,iw, n .a:� d' t-c a r:!.!. '""""'°��°'° ,,� is NFPA 71 MON. . �` / 1 1. , E: a : \iL.7a�,w? a \ ' �... ^ \.. ` COLUMN TOTALS , - � * ) R� 1 s - . 2 S O NMI. A NUMBER OF BOARDS (ROUNDUP) 1 2 . 1 / I *CANNOT BE GREATER THAN 128 CALCULATION OF THE NUMBER OF QC BOARDS TOTAL NUMBER OF FUNCTION BOARDS 1. TOTAL NUMBER OF RELAYS REQUIRED 3 (TOTAL ALL BOARDS IN ROW A AND ITEM 4) 2. NUMBER OF BF BOARDS X 2 .- NUMBER OF MOTHER BOARDS REQUIRED 3. NUMBER OFADDED RELAYS REQUIRED r ❑ 1 MOTHER BOARD FOR 8 OR LESS FUNCTION BOARDS (SUBTRACT ITEM 2 FROM ITEM 1) ❑ 2 MOTHER BOARDS FOR 9 TO 16 FUNCTION BOARDS 4. NUMBER OF DC BOARDS 3 ❑ 3 MOTHER BOARDS FOR 17 TO 24 FUNCTION BOARDS - - (ITEM 3 DIVIDED BY FOUR: ROUND UP) ❑ 4 MOTHER BOARDS FOR 25 TO 32 FUNCTION BOARDS 74 -5784 © Honeywell 1989 MRC 3 -88 -63 Rev. 10/89 .... 4 (-(/ .. DeltaNet FS90 POWER REQUIREMENTS CHART Use this table to calculate the power supply and battery requirements for EACH motherboard in the system. When sizing batteries, add the supervision current of each function board to the additional alarm current for the number of circuits that can possibly be in alarm to determine the Total Alarm current. Do not include non - active zones. Total the columns to complete the calculation at the bottom. Refer to applicable codes, local and NFPA. Mother- Q uantity Supervision # of - Additional - Total ,r LOAD Circuits Current In Alarm board Current (mA) (mA) Alarm I n Alarm Current Board or Device (# of circuits) t 2 3 a ) 2 _ a 1 CA Control Board (1) 1st moth.rbosrd only I x100= /00 / x 60= 6o /6 p AA 2W Initiator Board (4) .Z x125 = ;50 6 x 55= 3 30 5 RO AB 4W Initiator Board (2) x 90= x 55= : •• n • icating :oar. ) x • = y / x 1= { - c - 4 7 /(7 1 5 i: r. :i 3'! 3<Jv:^: ?;'a, v'!�:i+ri �•.ti : 7, X 20= / ,J with Relays (2) .:.:.....:.>..!: � • : �: : >:. >::!:.::.t:::::::,.:<:.... ,.......:.. ' BG 4W Indicating Board (2) x 45= x 50= DB Remote Driver Board (8) x 15= x 10= DC Accessory Relay Board (4) • •3 x 15= y S / Z x 20= ,7 y a 5 VA Transmitter Board (1) x 45= x 50= I Battery Supervision Module x 50= ‘moi i "° zir ' f » c ., ,.a��pc,.�r.Kla ..: oa >: .. :. '.a:a:• .wow.: ' ra . '.!• >,.'. va,.aV.S;::vi4 •'.ff: ::r4 . .. , o �c ?c` �. ^ ' .. +�, ::;x-'' «x, ;: A:'S`''. .: /i ?,:;:�`r�Y y x: ::�2±'^Yj.%'vfx . '• ::' •;�•l'•?s� $ ,f. a� .� . : ; : v...L �p .: ~fi.. p n:a. .a,:�a'>Z •: :v'. 5 ..;:: ;.s.5!: >a•::n3'xaC+G;f.^'':� ^.,,: rab2A/B, TC805 a> b�^.@;,, �.,�.,'��.,....�.`r...ti':h %'•: .. o, 9;i; ?: ::?�.v:^ak:..:,.....:. :: •;::::;:: : .,.?cw::. , >:S;aiY ;$>::e.. <g . _ ..... s moke Detector Td A/B' 7 x -1 tr ^ : 'a.,..,� _ J 7 ' ijA.Y S•: ; Sj� '�•:0:viiM..4.`•i :/�./ . a _ P • / iii, .>C. > ^4 :{5>.>�i%:!wMV. T'Y.�: P .: t..+.,rR. , ,^ :r: ' •,s . a/.y....�.rr ;'s' ' � es,/.3r :, +ass.•:. ii.skk �': .. :. :: ... :<: M1?::':,.,,,...... :,,.:r.^- ..o','• ^•.:':.:rro^;F' :<. " """tfi� ' ^:.�'Y„3�'^cY«"... _•sOY:'' •? ' 4 . :i w , o o9in: :�"�.:, : :;.y:�6:r: s:f.: ;y;a.a,y2� r9' f'< w. New m: 400 ; ? 7.. r g'?>::.e:?, ,'.:L^:' ':!.' L,: :i }i:•,vr :;.3::ss?t. f :SS•'Y'`p�i. ./.a ,r'.f: /; '� C'>;d6c��a,,;5 v`"r'3�'.y <`Yt%>. Aw,>_;;?4;.sif..''H:Il m: ;.!1, %i:s :.?: � i 'K ',' 6 ......:s�...,:<:.: ^r..;....: .... .. o: .: x. /R"4j, \•A ^„Yr33::..., ,:... ....:.•. ....:. ,:>:,. :.. :. . � . 'trfrec'�",�rg.•.�^'p.,..c. ":. '3sr! <f: ..y 34T -24 Horn 1,. > 63= v 4:Gf ��y/wfl�'.vw :' rr :: w'S !/.+ /A��.6 %%S•l•' ''Y '{{, i 700xT -24 Strobe Horn 9 l t? 7 % � rj` <X•. >, " x ►63= I y67 .. a� C .,.4,. f L' ^e:. b • 3 'r: i: ::: ; .:•s.:: �. x ' r . k s0::: ': ice'. iiY v, in.ss g 46T - Gx - 24 Vibrating Bell f JN�.� ?0��' :, n 4'. 46T- Gx -24 -WS Strobe Bell , �s4 _, " �� >- . >�" r: X 105= . � <y - > : -- .a�'::/ s aas �P . 'f6: .. y,E'/.' ais.i X f �5= r D 35 f::',•.` Y) .Y;s: :::g?;$ir:ai.,:.: isx ?J WST -24 Signal Strobe 8,000 Peak ::; . -O,� «<.,„ <-'. rd£4 < «4 :' >> Buzzer : ;* ;:. ;, � <m: :; v; ;Y.' :: x 14= SCS 06B B r :':'::.;� <?_:.aa:rrii.: s:rc.;.:..:s �f.....v :r::.�:.: <: <.: . .... �:.: . r:. r... . r:...I.:. r...... .:. r... r.......... :. ..... :r: {. .. .. y v : ,4,Y,.W,.,. . rr .n i,r: Y��' „yif:iii''J.:: ` ?fi >`li'3i?:. �,. {..:r • :.r,^n:;rs: r asi.as..n.:�.esfY r ... asf..::.f'�U.,r. MVO : a. '.::0�% '�s+M•'s. :: s ..:�f'� : ^:.; >:.::...........: ay :::::J..: �:.. �....: %ri:� { <H.Lv:•. ...>!!.^„ .. .r.... /.,... .... .. ...^r.:: .. .�.. i iv... rr. i i:,a:. on ...4:.. !:i)fi!::' >� '< +L ii:v:: {C...i:: .......::..:.•:..;t.: .: ..,; ..:.....,i ... r.,,e..: :: ::: <::r..,.:,,.,,...: /!axa i,,,.. i..�.ff� .L.,. ...� ':' ,r�""`:�N !Ni.� ..... ............:.:...... s...: ...:... ... .. ........ ... .....:::.' r.:?. f: 4w n.s in9�r. s`. n.s 9,4s...:.,::.�:::....,.,..w.rst �,.r...........9i. ^.:... �. /. F�//..... � .,. .: ,.f5f:a.r:r.:. n, rr K / ��fS:?�,� d s.. s.: :: External Load L x I h9<:= !:4.4;44: = , ya k . . `+ i N `.?'. : v'•. :::::i) 4 r ffie fy s jf y 9^ Annunciator (per LCD) 9 : >;:^;� � ; � � 4 4 0 � s > !,: CS2004 -x Door Holder / 5 ::y ,es'. �.; €,, < >r<,~ ' "° R8407 Relay x 10= )ri� Yr 10= Control Relay Assembly (per y ) > !... " 7.2 % yNa;'Rl 20= 10 Y y r re+a in alarm ,f�° ''F:,;;�;::� �,.a,�<: x 20 /� ......... • 7 TOTALS 2 3y Z •' :•�.e� >�: =,��f�,� > ��n,4 . �: : y� � 6 Z CALCULATION Ah =(2415 +.51 AL) /1000 (24 x I s ( a , 013q,(( + .5 x I AL 3567,1)/1000 3gef'6 24 lien ~any pus 0 nYlt[M na acne (le?A 71 a Tl/, _ /3\ A\ External Load if powered from panel. A Supervision current must be less than 2000 mA Total Alarm current must be less than 4000 mA © Honeywell 1988 /3\ = minimum battery size 74 -5784 • MRC 3 -88 -63 LOO Ld. 1.0 ...I J. UDOD •-• 1 • .• • • POWER/60 " ffiSTMSN/17/01ff NOAH( 1 1\11L Rechargeable Sealed Lead-Acid Battery ps,..12260 Power-Sonic rechargeable batteries are lead- .. . lead dioxide systems. The dilute sulphuric acid _.....__ electrolyte is suspended and thus immobilized. - f!)" Should the battery be accidently overcharged • Loja_ . producing hydrogen and oxygen, special one- way valves allow the gases to escape thus avoiding excessive pressure build-up. Other- • wise, the battery is completely sealed and is, therefore, maintenance-free, leak proof and usable in any position. PERFORMANCE SPECIFICATIONS Nominal Voltage. 12 volts (0 cells In miles) Nominal Capacity 20 hour rate (1300mA to 10.50 volts) 26 AH. 10 hour rate (2350mA to 10.50 volts) 23.5 A.H. 5 hour rate (4200mA to 10.20 volts) 21 A.H. 1 hour rate (16000 mA to 09.00 volts) 16 A.M. Approximate Weight. 18.7 pounds (8.5 kg) Energy Density (20 hour rate) 1 40 Wt(-hours/cubic inch (86 VYatt-hours/1) Specific Energy (20 hour rate) 16.7 Watt-hours/pound (38.7 Watt-hOUrs/kg) Internal Resistance (Fully Charged Battery) 10 milliohmS (eDDroxlmatety) Maximum Discharge Current Using Standard Terminals. 104 amperes Maximum Short-Duration Discharge Current 520 amperes Terminal Quick disconnect tabs, 0.250 x 0.032. or nut and bolt terminal Vibration Teat (2000 cycles/minute, 0.10 inch excursion. 2 houns) No loss in CaDOCJIY or performance Shelf Life — % of nominal capacity at 68°F (20°C) 1 Month 97% 3 Months. 91% 6 Months. 830.10 Operating Temperature Range Charge. —4°F (-20°C) to 122°F (50°C) Clacharge —76°F (-60°C) to 140°F (60°C1 case. ASS Plastic • TECHNICAL DATA: DISCHARGE CHARACTERISTICS SHELF LIFE AND STORAGE Iv, 14.0 AMeII:NT TEMPENATyRE.20?C (66 > I%) . - - v 13.0 !o��t.rsors� a �� • l -.� �� i . 10 t50 ° F) 120 � n.■ ■ ■ ;;CM•rr� Q Bo ��r1l�1��114�1 •2,.8o 20' me F) J 1 11.0 10.0 i ' - 26A Z 40'01104°C) I - ,9A �0 W 9 •d FINAL W - 1717 ~ 6.0 2A I � • i i o 0 0 2 4 8 • 10 12 14 i TANoiNG Tool MONTF,by r2 21 6 12 24 1641 • 2 y ! °1 EI9..,111., a . d " �" °"'�' "' ;`' t• • UFE CHARACTERISTICS IN STAND-BY USE DISC H G'. T I '• � .:; '•'.•. '.. • •• . 4:5 .'V"r r".$3" ,. „no: --:s. +':,fie•. ..,- ^r . • .. '.' tom)'' • - •91l:AiTTEMPERATung 20rc'(68°F) DISCHARGE TIME vs. DISCHARGE CURRENT 100 ' i 1M f ' �•. -s „�,•: aj , - ... �ii 10 ■��--�� Z • FL074t,C2lARGINa VO�T,AGt: _ :1 ...: ' :: -. e4 0 • • :' y '• 135- ,�13.8V- :.: •• ..• i• . .„.. . . . . .... . . , . F INAL • 1-' 1— .. •* , " `:: 0. • AGE , +.• . ;..t .• • iv, � ,. ... ,: N. , w 3 , 4 5 I- l` T "r t .�' • I' .. ' • , •j am/ ....' .. ;: ; ^ . [ • . . r +� ., ; 4 . _* .•r .:b ' yl•Z w r• Yg:... .. * 1 , , -s . i'' . ,,....1 . ..a.,:, _ CHARACTERISTICS IN CYCLIC USE IOU f: -- :'•• 5 30 ..: . • , , • .02100 -i ® ®_ - _ _ me. ,o . l fly):•. 11111 � ; � x:' _; : B:tO , ; { .1 40 1 301 .. TH • 5 �. ::' V � ' t +,3 •; :It OF:CISCHARGE 1.3 2.6 52'' 13: •' • - 52; ' w1; ' ' +� "a 1 7 ''; `• ° -40o; :''600-. 00 1000 1200 . • DISCHARGE •CUR • • ;, . • NUMOEr1 OFdrOt.E9 CHARGING PHYSICAL DIMENSIONS 1bn Leal for PS-122G0F: Cycle AppllcatIons: Umit Initial current to 5200mA. Charge until L=:11 3.14: battery voltage (under charge) reaches 14.40 to 14.70 volts at 68 °F L°J s (20 ° C). Hold at 14.40 to 14.70 volts until current drops to aoprox- s -4 I- Imatey 260mA. battery Is fully charged under conditions. and I 033 10 2301 charger should either be disconnected or switched to "float" I is f voltage. ° r o 0 "Float" or "Stand -By" Service: Hold battery across constant _.,_ J, l'� r; _ # 7. H voltage source of 13.50 to 13.80 volts contlnuoust% When held at •a •+. 5 /J•41 1a I this voltage, the battery will seek its own current level and maintain -f ' 1 a • - • — . itself In a fully charged condition. 1 NOTE: Due to the self -dlecharge characteristics of this type of e battery, it is Imperative that they be charged after 6 -9 months of ' storage, otherwise permanent loss or capacity might occur as a result of sulfation. _ ; a IMEr4lONS: tact•-• (mml ®® Mammas en+ +0.6 k (• 0.06 tnanl and . k ( +2aanl 1� habbl dimanaimI. �i `.ter SONIC POWER•ONIC CORP. POWER -SONIC EUROPE LTD. POWER -SONIC AUSTRALIA PTY., LTD. P.O. Box 5242 Units 3 & 4, Bucldnghara Square 5/60 Fairford Road 3106 Spring Street Hunicane Way Padetow. N.S.W. 2211 Redwood City, CA 94063 USA Wicltford, Essex SS11 BYO, England Australia Telephone: (415) 384 -5001 Telephone: (0268) 560686 Telephone: (02) 790 -4444 Telex: 348400 FAX 415.366.3682 Telex: 995612 FAX (0268) 560 902 FAX (02) 790246 PRINTED IN U9.A. 7/91 3M . (P (17 5 ke-di-ov ateio -0 0 a y K \� , , CITY OF TIGARD • April 12 , 19 95 �� ° OREGON , N , uvw . 'J\ \S ° ` 7 , , y. ` J °.• n � �? S Bob Pritchard � � \6 Ca � � Honeywell .V °'( ; a r , , , ecNt. w 15495 SW Sequoia Pkwy Yze-- cr4 ) Tigard, OR 97224 c e, .-. �� \ -1 3 '''' / ' � � . q-6." ) RE: Fire Alarm System for Bldg. 240 (BUP 94 -0300) and Bldg. 241 (BUP 94- 0301). % � This plan review is based on the 1993 edition of the Orego s V Structural Specialty Code and the 1991 edition of the Uniform Fire Code and Fire Code Standards. Plans for the above referenced project have been reviewed by this office and approved for construction subject to the following items: 1) The permittee shall provide written certification to the chief that the system has been installed in accordance with the approved plans and specifications. A copy of the completed form shall be maintained on the premises available to the chief. Section 14.103(e), UFC & Section 2 -2.4, UFC Std. 14 -1. t\ 2) Upon completion of the installation, a satisfactory test of i the entire system shall be made in the presence of the chief. All functions of the system or alteration shall be tested. Section 14.103(d), UFC. • A 3) The alarm control unit, remote annunciator panel and access keys to locked fire alarm equipment shall be installed and maintained in a location approved by the chief. Section 10.403(g), UFC. approved Fire alarm systems shall be divided into zones when required by the chief. When two or more alarm zones are required, visible annunciation shall be provided in a location approved by the chief. Section 14.107, UFC. - - '° 5) Inspection and tests of automatic fire detection devices shall be in accordance with NFPA 72E Standard on Automatic Fire Detectors. Section 2- 4.2(c), UFC Std. 14 -1. 1 A 6) The installation of wiring and equipment shall be in accordance with NFPA 70, National Electric Code, Article 760, Fire Protection Signaling Systems and Article 760, Optical . Fiber Cables, where applicable. Section 2 -5.3, UFC Std. 14 -1. 13125 SW Hcll Blvd., Tigcrd, OR 97223 (503) 639 -4171 TDD (503) 684 -2772 ' Mr. Dennis Woods April 10, 1995 Page 2 7) The secondary (standby) power supply shall automatically supply the energy to the system within 30 seconds whenever the primary (main) power supply is incapable of providing the minimum voltage required by proper operation. Section 2 -6.4, UFC Standard 14 -1. 8) Connections to the light and power service shall be on a dedicated branch circuit. The circuit and connections shall be mechanically protected. The circuit disconnecting means shall be accessible only to authorized personnel and shall be clearly marked FIRE ALARM CIRCUIT CONTROL. Section 2- 6.7.2, UFC Standard 14 -1. 'S A switch for silencing the alarm signal sounding appliances shall be permitted only if it is key operated or located within a locked cabinet. Such a switch shall be permitted only if visible zone alarm indication or equivalent has been provided as specified in 2 -11, and subsequent alarms on other initiating devices circuits will cause the audible alarm signaling appliances to resound. A switch that is left in the "silence" position when there is no alarm shall operate trouble signals until the switch is restored to normal. Section 2 -8.7, UFC Standard 14 -1. W 10) The location of an operated initiating device shall be visually indicated by the building, floor, fire zone or other approved subdivision by annunciation, printout or other approved means. The visual indications shall not be canceled by the operation of an audible alarm silencing switch. Section 2 -11, UFC Standard 14 -1. 11) Manual fire alarm boxes shall be distributed throughout the protected area so that they are unobstructed, readily accessible and located in the normal path of exit from the area, and as follows: (a) A manual fire alarm box shall be located at every exit from every level. (b) Additional boxes shall be provided so that travel distance to the nearest box will not be in excess or 200 ft. Section 3- 2.2.3, UFC Standard 14 -1. Mr. Dennis Woods April 10, 1995 Page 3 12) Each manual fire alarm box shall be mounted securely. The bottom of the box shall be not less than 3 -1/2 ft. nor more than 54 inches above the floor provided a parallel approach is provided. Sections 3109(n)3, OSSC. L 13) Visual alarm signals shall have a minimum intensity of 75 candela. Section 3109(n)2E, OSSC. 14) Visual alarms shall be located not less than 80 inches above the floor level, or 6 inches below the ceiling, whichever is lower, and at an interval of not less than 50 feet horizontal in rooms, corridors and hallways. Section 3109(n)2, OSSC. Visual alarms shall be located not less than 80 inches above the floor level, or 6 inches below the ceiling, whichever is lower, and at an interval of not less than 50 feet horizontal in rooms, corridors and hallways. Section 3109(n)2, OSSC. j 16) All means of interconnecting equipment, devices and appliances shall be monitored for the integrity of the interconnecting conductors or equivalent, so that the occurrence of a single open or a single ground trouble condition in the installation conductors and their restoration to normal shall be automatically indicated at the central control equipment within 200 seconds. Section 2 -7.1, UFC Standard 14 -1. 17) A fire alarm signal shall be clearly recognizable and take precedence over any other signal even though a non -fire alarm signal is initiated first. Section 2 -10.4, UFC Std. 14 -1. 18) Spot -type smoke detectors shall be located on the ceiling not less than 4 inches from a sidewall to the near edge, or if on a sidewall, between 4 inches and 12 inches down from the ceiling to the top of the detector. Section 4 -4.2, UFC Std. 14 -2. 19) On smooth ceilings, spot type smoke detectors shall be spaced a maximum of 30 ft. on center, 21 ft. from corner and 7.5 ft. from a wall. Section 4- 4.5.1, UFC Std. 14 -2. See notes on the approved drawings for the modification of these distances due to the shape of the areas covered. IlU 20) See notes on the approved plans for installation of additional visual appliances and for additional smoke detectors. _ 21) Smoke detectors shall not be located near air supply registers. Section 4- 6.2.3, UFC Std. 14 -2. 'Mr. Dennis Woods • April 10, 1995 Page 4 • 22) Please note comments indicated in red on the plans regarding additional devices required. Please submit 3 sets of revised plans reflecting all necessary changes. Sincerely, • Dati• Scott, P. . • Building Official DS:js M:\PRMSYS\COCUMENT\BUP94_03.00\ALARM.00C • • • • • • • • • • • Honeywell --- Hunevwell Inc. - -- - -- ------ ----- - - - - -- --------- ------ - - - - 9,&.€4 1() 7V- co 3 �0 15495 SW Sequoia Pkwy Ste 100 C Portland OR 97224 6' CO O 5 12eoLv� Pc ^FNED 503 968-3300 v March 9, 1995 City of Tigard lJ y 13125 SW Hall Blvd. Tigard Oregon 97223 Attention: Dave Scott Subject: Pactrust Building 240 Plan Review Dear Mr. Scott, Enclosed you will find Life Safety system designs for the above referenced buildings. The systems are designed in accordance with UFC14 -1. Specific system functionality is as follows: Corridor smoke detectors will initiate the audible /visual devices for that floor only The building sprinkler system will initiate all building audible /visual devices Elevator lobby smoke doors will close on all floors on elevator lobby smoke condition Elevator lobby detectors and elevator machine room detector will interface with the elevator controls for cab recall Floor smoke detectors will close fire /smoke dampers for that floor & shut down building HVAC Fire alarm control panel will be located in 2nd floor electrical room Fire alarm annunciator will be located in first floor lobby Fire alarm control panel will provide an output to security panel to release access control doors Strobe lights will be located in all rest rooms and building conference rooms Strobe /horn indicators will be located in tenant spaces as they are built out All alarm and trouble conditions will signal Honeywell's central monitoring station Pleaser let me know if you have any questions. My direct phone number is (503)968- 3366 Sincerely, HONEYWELL HOME and BUILDING CONTROL Bob Pritchard Building Security Market Manager .� ke ru 6( 050 Jv ✓R cLA/0 Melott and Associates, Inc. e...."-1 Fire Protection Consulting April 12, 1995 Memorandum To: David Scott, PE, Tigard Building Official From: Ronald Melott, PE, Fire Protection Engineer g?-41#\._ RE: Fire Alarm System for Buildings 240 and 241 BUP 94 -0300 and BUP 94 -0301 I have reviewed your 4/10/95 letter of fire alarm plan review on the above referenced buildings and am concerned about three items. Your items 11 and 12 - Fire alarm systems are not required by the State of Oregon Structural, Soer-i ali ty Code in B -2 occupancies that are not a high -rise office building. Sure of Oren Fire Code Section 14.104(c) also does not require a fire alarm system in B -2 occupancies unless the building is a high rise or not of one -hour fire resistive construction. In the latter case, a smoke detection system is required in the corridors but a manual system is not required. UFC Standard 14 -1 details the installation requirements when such systems are required. In these buildings, two automatic fire alarm features are provided - sprinkler water flow and smoke detection. A manual fire alarm system is a known false alarm device and general practice is that such devices are not provided in fully fire sprinklered buildings. I would agree that items 11 and 12 are correct but only if manual pull stations are required. Comments on plans. Strobes - The requirement to provide strobes in stairways presents an extreme safety hazard. The required strobe intensity in a confined area where movement is already somewhat hazardous because of the stairs, creates lots of opportunities for individuals to miss a step and fall. Stairs are used in exiting generally only after the individual has been alerted to a problem in their workspace or other areas of the building which requires exiting action. Stairs are equipped with emergency lighting so they are always lighted and the strobe does not add any safety features but creates a great safety hazard. 11650 S.W. Be! Aire Lane • Beaverton. Oregon 97005 • (503) 643 -5608 FAX 643 -5608 • Pager 295 -4684 AFR- 12 -1995 21:02 5036435608 96% P.01 There is no code requirement for strobes in stairwells and using •...any other area for common use in the third paragraph of UBC 3109(n).2 to support the requirement for strobes in stairways needs to be rethought. I think strobes inside stairs need to be eliminated as they create a safety hazard and a strong possibility for financial penalty (suit) for the building owner. Smoke detector locations - On the plans a note is made that smoke detectors in the north and south corridors are not to be more than 20.5 feet from a wall. The UFC standard 14 -2 Section 3- 5.1(b)indicates 0.7S, or for a listed 30 foot detector, 21 feet. I assume the plans reviewer may have used Figure A- 3- 5.1(c) for their distance (one -half of 41 feet) or may have figured the diagonal distance of the hall. Realistically, the smooth ceiling and narrow corridor configuration will cause any smoke to travel quickly to the smoke detector location. The closer the detector location to the outside doors, the more likely the detectors become susceptible to false alarms from smoke outside the building. The interior corridor doors are being held open by magnetic door holders creating a nearly unobstructed corridor. Initial detection will occur before the doors close and thus the detectors can be spaced as if the corridor is totally open. There is a smoke detector in each corridor space that could be closed off by doors. Not sure where the plan reviewer is coming up with the 19 foot spacing off the elevator corridor wall. The Honeywell plan established the base for the fire alarm and detection system which is to be completed and added to as the tenant spaces are built out. The detectors are for early warning and as a trade off for using non -rated glass relites and glass doors at the tenant entrances. Fire protection must look at the whole picture (sprinklers, detection, alarm construction, separation, occupancy hazard, etc.) rather than create each system as if they were a full stand alone system. They must complement, not duplicate or conflict with each other. Let me know if there are any questions. RKM /mm cc: Bob Pritchard, Honeywell Richard Krippaehue, Pac -Trust Honeywell /Pao Truet 2 APR -12 -1995 21:02 5036435608 96% P.02 • Melott and Associates, Inc. � q� / -a�3� Fire Protection Consulting • March 16, 1995 Memorandum To Whom It May Concern: From: Ronald K. Melott, PE, Fire Protection Engineer RE: Fire Alarm Manual Pull Stations Pacific Corporate Center 6650 Sw Redwood Lane 15350 SW Sequoia Parkway Portland, Oregon • The suggestion to install manual pul] stations on the proposed fire alarm system is hereby argued against. They are not required by the codes. 11ni i : nrm Fire ('r rie (JFC) Section 14.104(c).4 allows smoke detectors in lieu of one -hour fire resistive construction. There is no requirement for manual pull stations to be provided in B -2 occupancies. The general purpose of manual pull stations is to provide a back up alerting method for the potential non - functioning of a fire detection system or a delay in system activation. They are required in high life hazard occupancies but in light hazard occupancies are generally a high false alarm and nuisance device. In the buildings in question, the occupants are normally awake and two different levels of autocratic fire detection are provided: the thermal detection characteristics of a complete fire sprinkler system and the early warning smoke detection characteristics of a corridor smoke detection system. The two automatic systems (sprinklers and smoke detectors) provide different approaches to fire detection and are not dependent on one system for functional activation. A fire in a tenant space that could be potentially life threatening will be detected and extinguishment begun by the fire sprinklers before the fire effects become life threatening in other building areas. The corridor smoke detectors are installed to provide early warning as to when the exit path might begin to be compromised. Either activation sets a series of actions into motion: (1) the building audio /visual alarm system is activated; 11650 S.W. Bel Aire Lane • Beaverton. Oregon 97005 • (5031 643 -5608 FAX 643 -5608 • Pager 295 -4664 MAR -20 -1995 08:03 5036435608 S6% P.56 (2) doors which are held open on magnetic hold opens are released for closing; (3) the elevator recall p rocedure is activated; and (4) the fire department is automatically notified of the alarm activation. pull stations most likely would never be operated of manual p 1 first in an to be attractive nuisances They don't enhance early warning n emergency but are known nuisances for false alarms• cause tenants to be less responsive to capabilities but will likely actual alarms because of the nuisance ema( disable alarm devices) or defeat the function of the alarm sys � en The addition its ancillary activities (block 'smoke doors op ): of manual pull stations to these offic buildings will also become a nuisance factor to the fire departm Providing a manual back up to two automatic system4 PR s is a r not warranted in an office building. I RKMImm 1 Gtt � 1107 � - of vo ` A. 4.4 GON 0 � f2I 'pp j' 14 \� �'� . 40 K OS- i I I 2 I pacific Corporate Center /Pao Truce I .i 9,6% P.07 MAR -20 -1885 08:03 5036435608 . .. -- — � — _- .. - ..- ..' _"_.— .— —��—. _�. Vi i.. _. —.: •_�_. _ _. .. ._... h� .:� _ �..� te e,.— �r.�— .. :: — . SO 51-V igatrAiovel (P) 1 9 - 3 or • 4. CITY OF TIGARD March 10, 1995 OREGON Mr. Dennis Woods Mackenzie Saito and Associates 695 SW Bancroft St Portland, OR 97201 -0039 Re: Stairway enclosure modification for Bldg. 240 (BUP 94 -0300) and Bldg. 241 (BUP 94- 0301). Dear Mr. Woods: The letter serves to document the modification to the stair enclosure requirements of Sec. 3309(a) of the Oregon Structural Specialty Code discussed at our meeting on March 6, 1995, and to clarify item #3 of my letter dated February 16, 1995, regarding the modification to the opening protection requirements for the corridors by specifying how the smoke detection /alarm system for the building will operate. 1) A modification is granted to permit the central stairway to have unprotected openings at the first floor (bottom of stair flight to second floor) and second floor (bottom of stair flight to third floor) subject to the following conditions: a) The openings into the stairway at the top of these stair flights shall be protected by one -hour rated, smoke gasketed doors provided pursuant to Sections 3309(c) and 3305(h). b) All automatic closing elevator lobby doors on all floors shall close upon activation of any one automatic closing elevator lobby door. c) The stairway between the second and third floors shall be completely separated from the stairway between the first and second floors by one - hour construction and the doors described in item (a) above. The use of one -hour shaft walls at the underside of a flight is permitted (see attached drawing). 2) The following will summarize the requirements for the smoke detection \alarm system required pursuant to item #3 of my letter dated February 16, 1995, and 4. item (1)(b) above: 13125 SW Hall Blvd., Tigard, OR 97223 (503) 639 -4171 TDD (503) 684 -2772 Mr. Dennis Woods - Letter March 10, 1995 Page 2 a) All corridors and elevator lobbies shall be provided with automatic smoke detectors located pursuant to the Uniform Fire Code and Standards. b) When a smoke detector on a given floor is activated, alarms located in all common areas of the tenant areas (including the building conference room) and building restrooms shall annunciate on that floor. c) When any automatic closing elevator lobby door in the building is activated, all automatic closing elevator lobby doors in the building shall activate, and the alarms on the floor where the first elevator lobby door was activated shall annunciate. All conditions of my letter dated February 16, 1995, remain in effect. Please call if you have any ques • ns. Sincerely, c4g . David Scott, P.E. Building Official c: Ken Grimes, PacTrust Tom Plescher File ' MAR- 14- 95.TUE 16:15 MSA /MEI FAX NO. 5032749812 P.02 -........i lo'-o" t _ 8' -11" .........Ill 8, -5" y a v 0 R 9 O © 11— ::r >.''''''''.***''''''''''' *1'......'.::...'...'... _S24" • 8'- i t" I 8' -5 0 dil l .- -- 1 0 61 RA1 I 47.1A A o - t,,,ic 3/14/95 0 . svcc4. vi a1\ • OR 9 0 © 11 '- 0" a 8' -5" ' g 0 0 0 ' IR STAIRWAY STAIRWAY HALLWAY AIM to, to " iT A ' WAY /HALLWAY /ELEVATOR ELEVATOR SHAF CT1ON 1/4 " =1' -0" MACKENZIE /SAITO & ASSOCIATES, P.C. ARCHITECTURE • PLANNING • INTERIOR DESIGN 0690 S.W. BANCROFT STREET • P. O. BOX 69039 PORTLAND, OREGON 97201-0039 • (503) 224-9570 • FAX (503) 228-1285 MEETING MINUTES U 6t-63 DATE: March 13, 1995 Qa Ck \\ -03a \ SUBJECT: PacTrust Corporate Center Building 240/241 Stair #3 Construction and Elevator Lobby Doors Meeting Minutes (36/95) Project Number 294048.07 BY: Dennis Woods )0 PRESENT: Dave Scott, Building Official - City of Tigard Ken Grimes, Dick Krippaehne - PacTrust Dennis Woods - Mackenzie /Saito & Associates (MSA) The following items were discussed: 1. Dave Scott requested the following in order to maintain open stair #3 at the lobby of the first and second floors: a. The underside of stair stringers/landings and all wall surfaces around the stair are to have one layer of Type X rock (each side at walls). In addition, the stair stringers between the second and third floor are to have a one -hour, horizontal shaft liner. b. The stair at the third floor and the second floor between the first and second floors is to be enclosed with a one -hour door with smoke gaskets. c. All elevator lobby doors on all floors are to be tied together on a magnetic hold open - -if one closes, they all close. The elevator lobby magnetic hold open is to be tied to the corridor and tenant alarm system for each floor. 2. With the above -noted conditions, all other door and glass openings into this area can be treated as noted in the previously approved alternate design (i.e., additional sprinkler heads, smoke detection, and alarm system). 3. Dave asked that we resubmit the revisions as discussed and that all revisions be on large sheets (no 8 -1/2 x 11's). Every effort has been made to accurately record this meeting. If any errors or omissions are noted, please provide written response within five days of receipt. DRW /sk c: All Present MACKENZIE/SAITO & ASSOCIATES F: \WPDATA\95 -03\94048.07113MM.SK 6Co5o slw/h6.�z-/UOa7L.Y2 P9 3cro / /////10- 1‘ CITY OF TIGARD OREGON) February 16, 1995 • Dennis Woods Mackenzie Saito and Associates 0690 SW Bancroft St. P.O. Box 69039 Portland, OR 97201 -0039 Re: Modification to corridor and elevator lobby opening protection requirements for central core corridors. Job: Pacific Corporate Center Bldg. 240 BUP94 -0300 Pursuant to your request, a modification of Sections 3305(h) and (j) is granted to permit the use of non -rated door and side light assemblies for suite entrances from the core corridors and elevator lobbies. These sections require that such doors be tight- fitting smoke and draft control assemblies having a fire - protection rating of not less than 20- minutes and side lights be protected by fixed glazing listed and labeled for a fire - protection rating of at least three - fourths hour. This approval is subject to the following conditions: 1. All non -rated doors shall be provided with a tight- fitting smoke gasket assembly and be protected by quick- response sprinklers on both sides of the opening. 2. All non -rated side lights shall be 1/4" thick tempered glass and be protected by quick- response sprinklers on both sides of the opening. (Note: if a combination door /side light assembly is no wider than 6' -0 ", one head will suffice at each side, otherwise two heads at each side will be required. 3. All core corridors and elevator lobbies shall be provided with a smoke detection system which shall annunciate both visual and audible alarms installed throughout the building in conformance with the Fire Code and Chapter 31 of the Oregon Structural Specialty Code. 13125 SW Hall Blvd., Tigard, OR 97223 (503) 639 -4171 TDD (503) 684 -2772 4. Openings into the core corridors and elevator lobbies from tenant spaces shall be limited to the subject entry doors and side lights. Each tenant will need to incorporate these conditions into their fire protection systems. Please call if I can be of any further assistance. Sincer ly, giR G David Scott, P. . Building Official CC: file Pactrust (Attn: Ken Grimes) Tom Plescher Tualatin Valley Fire and Rescue